SU936170A1 - Device for compensating for errors of protective current transformer in short-circuiting steady state - Google Patents

Description

The invention relates to electrical engineering., And in particular to devices for compensation, errors of current transformers used in relay protection systems of electrical systems.

A device is known for compensating for errors in current transformers, in which a mathematical model of CT SI is used.

The disadvantage of this device is the relative complexity,. as for modeling TT it uses several operational amplifiers.

The closest to the invention, the technical solution is the device for compensating the errors of the current transformers ,, comprising active-inductive shunt _m chenny connected to the terminals of the secondary winding of the current transformer and the circuit with non-linear characteristic connected in parallel with said shunt resistor [2].

The disadvantage of this device is the use of an active-inductive shunt with significant dimensions, the adjustment of which is difficult and for this reason does not provide high accuracy of error compensation.

The purpose of the invention is to simplify the device, improving the accuracy of error compensation.

This goal is achieved by the fact that the device for compensating the pogo · · decisions of the protective current transformer in the steady-state short circuit, containing a shunt connected to the terminals of the secondary winding of the current transformers and parallel to the load input and consisting of two series-connected resistances, the first resistance made in the form of resistance, and a second parallel connected circuit with a nonlinear characteristic, wherein the output is connected to one of the conclusions ₄

936170 4 dov load, the second resistance 'tavavaya' has time to fade and by shunt is made in the form of active-capacitive resistance.

In FIG. 1 shows a diagram of a device; in FIG. 2 - a variant of the proposed device ₅ .

The device comprises current transformers 1, to the secondary winding of which a shunt consisting of is connected through an intermediate transformer 2. to series-connected active resistance 3 and active-capacitance 4, in parallel with which a circuit 5 with a non-linear characteristic is connected, which maybe 5 is made on resistors 6 and 7 and zener diodes 8 or on operational amplifiers, in the latter case, an adder is installed to sum the output signals 9-20

The active capacitance 4 is selected so that the voltage on it is proportional to the flux linkage of the secondary winding of the current transformer. The voltage at the _25th output of the nonlinear circuit 5 is proportional to the magnetizing current.

'At the output of the adder 9, a signal is obtained proportional to the primary current of the current transformer. _3JJ

The proposed device is easily adjustable and can be widely used for remote, maximum current from interphase short circuits and step-by-step current protections of zero sequence ³⁵ . By the time of operation of the organs with time delay, an aperiodic current transformer flows with current transformers corresponding to the established short circuit mode. The application of the proposed device can improve the input signal forms of the above protections and thereby increase their selectivity and sensitivity.

Claims (2)

393 load points, the second shunt resistance is made in the form of active-capacitive resistance. FIG. 1 shows a diagram of the device, FIG. 2 - a variant of the proposed device. The device contains current transformers 1, to the secondary winding of which through an intermediate transformer 2 a shunt is connected, consisting of series-connected active resistance 3 and active-capacitance resistance k, in parallel with which is connected a circuit 5 with a non-linear characteristic that can be performed on resistors 6 and 7 and zener diodes 8 or at the operating amplifiers, in the latter case, an adder 9 is set to sum the output signals. The active capacitance resistance k is selected in this way so that the voltage across it is proportional to the flux linkage of the secondary winding of the current transformer. The voltage and the output of the nonlinear circuit 5 are proportional to the magnetizing current. At the output of the adder 9, a signal is obtained that is proportional to the primary current of the current transformer. The proposed device is easily controlled and can be used widely for remote, maximum current from phase-to-phase short circuits and zero-step stepped current protection. By the time of the activation of organs with a time delay, the aperiodic component has time to fade and a current is flowing through the current transformers, which corresponds to the steady-state short-circuit mode. The application of the proposed device allows to improve the input signal forms of the above protections and thereby increase their selectivity and sensitivity. The invention is a device for compensating errors of a protective current transformer in a steady-state short circuit mode, containing a shunt connected to the secondary terminals of current transformers parallel to the load input and consisting of two series-connected resistances, the first resistance being made as active resistance and parallel to the second A circuit with a non-linear characteristic is connected, the output of which is connected to one of the load terminals; In order to improve the accuracy of the compensation of errors, the second resistance of the shunt is made in the form of active-capacitive resistance. Sources of information taken into account during the examination 1. USSR author's certificate No. 633085, cl. H 02 H 3/38, 1979. 2. USSR author's certificate No. 519811, cl. H 02 H 3/38, 197.